JP2931646B2 - Float mechanism and fuel detection assembly - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION FIELD OF THE INVENTION The present invention relates generally to flotation devices for liquid level measurement, and more particularly to devices for interconnecting floats and float rods.

B. 2. Description of the Prior Art Fuel level sensing in automotive fuel tanks is typically accomplished by using a swivelable float that controls the movement of a wiper contact on a resistor. The electrical connection to the wiper contact and the electrical connection to the resistor provide variable measurement of the resistance when the float moves according to the fuel level in the tank. The resulting signal from the variable resistor is an electrical gauge, such as an electric gauge, that indicates to the driver the amount of fuel present in the tank.
Sent to indicator.

Typically, the variable resistor mechanism and the float body are interconnected via a steel float rod arm extending between the variable resistor mechanism and the float body. Various techniques are known for connecting a float to a float rod.

C. For example, U.S. Pat. No. 2,325,582 to Anderson and U.S. Pat. No. 3,316,763 to De Giers describe U.S. Pat.
Figure 3 shows a float rod arm ending with a mold bracket. The float member is rotatably held on a shaft. Due to the rotation of the float body, the body maintains a horizontal position at the surface of the liquid to be measured. This type of float and float arm assembly is not preferred due to the expense and complexity required to manufacture and assemble a vast number of parts.

US Patent No. 3,361,15 to Kingle
No. 6 discloses a float body secured to the valve boom by a catch jaw projecting from the valve arm and into the float body. In mass production, light weight, low cost, thin steel float rods are preferred for the large brackets required at the Kingle. Also, the catch jaws do not easily penetrate the plastic float body typically used in fuel tanks to keep fuel fuel from soaking.

U.S. Pat. No. 3,200,646 to Donko et al. Discloses what is known as a bent bend shepherd's wand hook-type attachment between a float rod and a float body. The cylindrical float body includes a groove for receiving an end portion of the arched float body. The bent sheep sheep wand hook design is not durable and does not provide equal and strong retention of the float body against the forces applied to the float body in all directions. Furthermore, it is even possible that the float body is assembled in the form of a bent sheep's wand hook which is placed in the wrong position.

 These are some of the disadvantages that the present invention overcomes.

Summary of the Invention d. SUMMARY OF THE INVENTION It is a primary object of the present invention to provide a float mechanism that is simple and inexpensive to manufacture and assemble.

It is a further object of the present invention to provide a highly durable, float rod assembly between the float and the tank without damaging the float mechanism or the tank while fuel bouncing through the tank. An object of the present invention is to provide a float and float rod assembly that can withstand repeated high force impacts.

Another object of the present invention is to improve the accuracy of liquid level measurement using a float mechanism.

These and other objects are achieved by using a float mechanism having a float rod and a float body. The float rod extends toward a far end that is substantially straight from the pivot axis and has at least one bend between the pivot axis and the distal end, wherein the distal end is substantially the pivot. An axis parallel to, but not collinear with, the pivot axis, and an intermediate portion of the float rod is not parallel to the pivot axis. The float body has a receiving passage oriented parallel to the pivot axis and adapted to receive the distal end, and a snapper adapted to grip the intermediate portion. And Preferably, the snap-receiving holder comprises a fork extending in a direction parallel to the pivot axis.

 Hereinafter, the present invention will be described with reference to the illustrated embodiments.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT FIG. 1 shows a fuel detection assembly having a float rod 10 and a float body 11 joined by one prior art method. The float rod 10 has a bent sheep's wand hook-shaped bend 20 at one distal end and a bend 22 at the opposite end.
And a pivot shaft portion 21 via the shaft. The float body 11 is bent at the groove 23.
Held at 20.

The pivot shaft end 21 of the float rod 10 is held by a variable resistance mechanism. This mechanism is disclosed in U.S. Patent Application No. 289,883, filed December 27, 1988, and in May 3,1989.
This corresponds to the mechanism described in US Patent Application No. 359,061 filed on the 0th.

The variable resistance mechanism comprises a case 12, a resistor card 15 received in the case 12, a carrier element 13 on which a contact spring 16 is mounted for sliding contact with the resistor card 15, a case 12; Base member to snap with
Contains 14. The contact spring 16 contacts a base member 14 which is made of metal and provides one electrical connection for the variable resistor. Wire 17 is coupled to resistor card 15 to provide a second electrical connection to the variable resistor.

The pivot end 21 of the float rod 10 passes through a hole (not shown) in the case 12, then through a bore in the carrier element 13, and then a hole in the base member 14. Penetrates. A fork 24 extends through a slot (not shown) in the case 12 and grips the portion of the float rod 10 between the bend 22 and the bent sheep's wand hook-shaped bend 20. I have. The float body 11 rotates about an axis defined by a pivot end 21 as the fuel level changes in the fuel tank. This movement is transmitted to the contact spring 16, which causes the wire 17 and the base member
Vary the resistance between 14. Base member 14 is mounted on a grounded metal surface of the fuel tank, and wire 17 is coupled to a gauge drive circuit to indicate the fuel level in the fuel tank.

FIG. 2 shows an improved float rod and float body device. The float body 30 is a float
It is configured to be connected to the rod 31. The float rod 31 has a pivot end 32 defining an axis (A), and is preferably substantially straight and an axis (preferably substantially parallel to the axis (A)). B) has one far end 34 defining it. Bend 33 separates pivot end 32 from the remainder of float rod 31. Bend 35 separates distal end 34 from the rest of float rod 31. A pair of intermediate bends 37 and
38 is provided to provide a compact design by placing the float body 39 near the surface of the variable resistance detector.

The float body 30 has a passage or tunnel 40 for receiving the distal end. Fork 41 for snapping
Is offset from passageway 40 and float rod 31 at gripping point 36, with two bends 35 at the point where distal end 34 is received in passageway 40 and a gripping point. The gripping is such that 36 is intermediate to two points with the point received in the fork 41. The float body 30 may further include an end cap 42.

The arrangement shown in FIG. 2 is a two-point fixation of the float body 30 to the float rod 31, providing the fixation achieved by inserting the component in a single operation. Hence, the assembly of the parts is greatly simplified. Furthermore, the parts are firmly secured against forces applied in all directions after assembly. Conveniently, the insertion movement is along the longitudinal direction of the float body 30. Parts are assembled in only one direction. Therefore, assembly errors are reduced.

FIG. 3 shows that the passage 40 extends from the entrance 44 to the distal end 45. The diameter of passage 40 is tapered from a diameter at the entrance 44 slightly greater than the diameter of the distal end 34 to a diameter at the distal end 45 substantially equal to the diameter of the distal end 34. FIG. 3 further shows that the float body 30 preferably comprises a hollow body which is preferably filled with filler material 43. The function of the filler 43 is to provide the desired buoyancy of the float in the liquid to be measured. For example, a float body 30 adapted to float in an alcohol-based fuel contains a filler 43 consisting of fine glass beads held in the float body 30 by an end cap 42. May be. Other shapes and materials may be used as the filler 43. For example, the shape may be a box shape instead of a bead shape, and a plastic-like material instead of glass. In addition, the center point flotation, with the filler in place, such that one half of the float body is above the surface of the liquid fuel and the other half is below the surface of the liquid fuel It is preferable to match the thickness of the float body wall so that levitation occurs.

FIGS. 4 and 5 show a float rod 31 connected to the float body 30. FIG. By moving the float rod 31 in the direction of arrow C relative to the float body 30, the distal end 34 is received in the passage 40 and the gripping point
36 is received in fork 41. The fork 41 includes a fork half 50 and a fork half 51, each of which includes a respective tip 52 and 53. A recess 54 for receiving the float rod 31 is formed below the tips 52 and 53.

In another embodiment of the present invention shown in FIGS. 6 and 7, a fork 41 is provided at the center longitudinal axis of the float main body 30, and a tab 55 protrudes from the side surface of the float main body 30. A passage 56 is provided in the tub 55 for receiving the distal end 34 of the float rod 31. Passage 56 is entrance 57
And has a diameter that narrows toward the outlet 58. The coupling of the parts is achieved by a relative linear movement along arrow D in FIG.

The above-described float mechanism configuration and two-point attachment or mounting provide a very durable float assembly for use as a fuel detector in an automotive fuel tank. Further, the ability to assemble parts in a single linear motion provides a convenient and inexpensive fuel detector. The symmetrical circular shape of the float body provides equal clearance between the float body wall and the fuel tank wall at locations that indicate full and empty, resulting in high measurement accuracy. providing.

As described above, the preferred embodiments of the present invention have been described.
It will be apparent to those skilled in the art that various modifications can be made without departing from the spirit of the invention.

[Brief description of the drawings]

FIG. 1 is an exploded perspective view of a fuel detector assembly having a mounting structure between a float rod and a float body according to the prior art. FIG. 2 is a perspective view of one embodiment of the float rod and the float body of the present invention. FIG. 3 is a partial side cross-sectional view of a float body according to the present invention. FIG. 4 is a side view showing a structure of a mounting portion between the float body and the float rod according to the present invention. FIG. 5 is a front view of FIG. 4 as viewed in the direction of arrows 5-5. FIG. 6 is a top view of an alternative embodiment of the float body of the present invention. FIG. 7 is a side view showing the interconnection between the float body and the float rod of FIG. In the figure, 30 …… Float body, 31 …… Float rod,
34 …… far end, 41 …… a fork that accepts a snap.

 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References Jiko 52-8915 (JP, Y2) Jiko 52-9530 (JP, Y2) Jiko 40-9603 (JP, Y1) Jike Sho 56- Microfilm (JP, U) photographing the contents of the specification and drawings attached to the application form No. 28438 (Japanese Utility Model Application No. 57-142318) Application form of Japanese Utility Model Application No. 58-134242 (Japanese Utility Model Application No. 60-41831) Microfilm of the contents of the specification and drawings attached to (JP, U)

Claims (2)

(57) [Claims] 1. A float rod extending substantially straight from a pivot axis toward a distal end, the float rod having at least one bend between the pivot axis and the distal end, wherein the distal end is The float rod, wherein the float rod is substantially parallel to the pivot axis but is not collinear with the pivot axis, and an intermediate portion of the float rod is not parallel to the pivot axis. A receiving passage oriented parallel to the pivot axis and adapted to receive the distal end, and a retainer for receiving a snap adapted to grip the intermediate portion. A float body comprising: and a float mechanism comprising: A variable resistance device for generating a variable voltage corresponding to an angular position of the wiper contact portion, the variable resistance device being coupled to the variable resistance device; A float rod extending distally from the pivot axis, the float rod having at least one bend between the pivot axis and the distal end, the distal end being substantially parallel to the pivot axis. The float rod is not collinear with the pivot axis, and the intermediate portion of the float rod is not parallel to the pivot axis; and the float rod is oriented parallel to the pivot axis. And a float body having a receiving passage adapted to receive said distal end and a snapper adapted to grip said intermediate portion and a receiving retainer. assembly.